A timely efficient and robust multi-source and multitemporal routine for determination of surface water area in large water reservoirs

International Journal of Hydrology Pub Date : 2021-10-12 DOI:10.15406/ijh.2022.06.00327

D. Facco, L. Guasselli, D. Zanotta, Luis Fernando Chimelo Ruiz

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Abstract

The Brazilian electrical system has gone through conflicts resulting from recent water crisis. Timely indicators are crucial for properly acting in order to mitigate upcoming problems. In this work we evaluate the potential of Reservoir Water Level (RWL) and Surface Water Area (SWA) indices for estimating physical parameters in the management of water resources. We tested Landsat 8 (L8) and Sentinel-2 (S2) optical image time series, Sentinel-1 (S1) radar, spectral indices and validation with Jason-3 (J3) altimetry. The methodology was developed in the Google Earth Engine (GEE) operational routine, which streamlined the SWA mapping. The best results were between S2 and NDWI and threshold 0, with R² = 0.88 and RMSE of 11.59 km². As main limitations, we highlight the cloud cover for the optical images, which can decrease the temporal sampling, as well as the SAR backscatter response in the presence of bare soil and aquatic vegetation. We could attest that periodic remote sensing data are particularly useful for timely updating spatial variations of RWL and SWA in reservoirs.

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大型水库地表水面积测定的一种及时、高效、稳健的多源、多时段常规方法

由于最近的水危机，巴西电力系统经历了冲突。及时的指标对于采取适当行动以减轻即将出现的问题至关重要。本文评价了水库水位(RWL)和地表水面积(SWA)指标在水资源管理中估计物理参数的潜力。我们测试了Landsat 8 (L8)和Sentinel-2 (S2)光学图像时间序列、Sentinel-1 (S1)雷达、光谱指数，并与Jason-3 (J3)测高仪进行了验证。该方法是在Google Earth Engine (GEE)操作程序中开发的，它简化了SWA制图。S2与NDWI和阈值0之间的结果最好，R²= 0.88,RMSE为11.59 km²。作为主要限制，我们强调了光学图像的云层覆盖，这可能会减少时间采样，以及在裸露土壤和水生植被存在时的SAR后向散射响应。我们可以证明，周期性遥感数据对于及时更新水库RWL和SWA的空间变化特别有用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Hydrology

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